A bicycle front derailleur including a chain guide; a linkage assembly; and a mounting bracket configured to mount the chain guide to a bicycle frame such that the chain guide is movable with respect to the mounting bracket. The mounting bracket includes at least one fixed portion adapted to receive a fastener to fix the fixed portion so that an axis of the fastener extends toward a bottom bracket hangar of the bicycle frame when the fixed portion is fixed to the bicycle frame via the fastener. The axis of the fastener is generally vertical.
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1. A bicycle front derailleur comprising:
a chain guide;
a linkage assembly; and
a mounting bracket configured to mount the chain guide to a bicycle frame such that the chain guide is movable with respect to the mounting bracket, wherein the mounting bracket includes at least one fixed portion adapted to receive a fastener to fix the at least one fixed portion to a pivot joint of the bicycle frame so that the fastener extends toward a bottom bracket hanger of the bicycle frame in a state in which the at least one fixed portion is fixed to the pivot joint of the bicycle frame via the fastener, wherein the pivot joint differs from the bottom bracket hanger.
16. A bicycle front derailleur comprising:
a mounting bracket configured to mount the bicycle front derailleur to a bicycle frame, wherein the mounting bracket includes:
at least one connecting portion pivotally connected to the linkage assembly; a first fixed portion through which a first fastener passes, wherein the first fixed portion defines a first fastener axis, which is non-parallel to a rotational center axis of a bicycle front sprocket in a state in which the mounting bracket is mounted to the bicycle frame; and
a second fixed portion through which a second fastener passes, wherein the second fixed portion defines a second fastener axis, which is non-parallel to the rotational center axis in the state in which the mounting bracket is mounted to the bicycle frame, and wherein
the at least one connecting portion is located between the first and second fixed portions as viewed in a direction parallel to the rotational center axis.
27. A bicycle front derailleur comprising:
a chain guide including a first guide plate, second guide plate, a first bridge portion connecting the first and second guide plates at a first location and a second bridge portion connecting the first and second guide plates at a second location that is different from the first location, the first bridge portion being positioned in a first plane, the second bridge portion being positioned in a second plane;
a linkage assembly; and
a mounting bracket configured to mount the chain guide to a pivot joint of a bicycle frame such that the chain guide is movable with respect to the mounting bracket, wherein the mounting bracket includes at least one fixed portion defining a fastener axis that intersects with the first plane and the second plane, wherein the at least one fixed portion is configured to be fixed to the pivot joint, and wherein the pivot joint differs from a bottom bracket hanger of the bicycle frame.
12. A bicycle front derailleur comprising:
a chain guide;
a linkage assembly; and
a mounting bracket configured to mount the chain guide to a bicycle frame such that the chain guide is movable with respect to the mounting bracket, wherein the mounting bracket includes at least one fixed portion adapted to receive a fastener to fix the at least one fixed portion so that the fastener extends toward a bottom bracket hanger of the bicycle frame in a state in which the at least one fixed portion is fixed to the bicycle frame via the fastener,
wherein the at least one fixed portion is a first fixed portion, the mounting bracket includes a second fixed portion and a main body, the main body includes at least one connecting portion pivotally connected to the linkage assembly, and wherein the at least one connecting portion is located between the first and second fixed portions as viewed in a direction parallel to a rotational center axis of a front sprocket of the bicycle in a state in which the first and second fixed portions are fixed to the bicycle frame.
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The invention generally relates to a bicycle front derailleur and, more particularly, to a bracket of the front derailleur for mounting the front derailleur to a pivotal frame member of a bicycle frame.
Front derailleurs are typically mounted to a bicycle frame near the bottom bracket hanger. However, in some frame configurations of modern bicycles, this is a crowded location, and it is sometimes difficult to avoid interference between a mounting member to mount the front derailleur and other parts. For example, in a frame configuration in which the chain stays pivot with respect to a seat tube having the bottom bracket hanger, there may be interference between the mounting member of the front derailleur and a pivot joint of the chain stays.
In a first aspect, the invention is a bicycle front derailleur including a chain guide; a linkage assembly; and a mounting bracket configured to mount the chain guide to a bicycle frame such that the chain guide is movable with respect to the mounting bracket. The mounting bracket includes at least one fixed portion adapted to receive a fastener to fix the fixed portion so that the fastener extends toward a bottom bracket hanger of the bicycle frame in a state in which the fixed portion is fixed to the bicycle frame via the fastener.
In a second aspect, in the bicycle front derailleur of the first aspect, the fixed portion defines a fastener axis that is vertical or generally vertical when the bicycle is in an upright position and in the state in which the fixed portion is fixed to the bicycle frame.
In a third aspect, in the bicycle front derailleur according to the second aspect, the fastener axis is in close proximity to a pivot joint between a first tubular part and a second tubular part of the bicycle frame.
In a fourth aspect, in the bicycle front derailleur according to any of the previous aspects, a lower surface of the fixed portion is configured to face an upper surface of a tubular part of the bicycle frame when the bicycle is in an upright position and in the state in which the fixed portion is fixed to the bicycle frame.
In a fifth aspect, in the bicycle front derailleur according to the fourth aspect, the tubular part is a first tubular part, and the fixed portion defines a fastener axis that is in close proximity to a pivot joint between the first tubular part and a second tubular part of the bicycle frame in the state in which the fixed portion is fixed to the bicycle frame.
In a sixth aspect, in the bicycle front derailleur according to any of the previous aspects, the fixed portion defines a fastener axis that is perpendicular to a rotational center axis of a bicycle front sprocket in the state in which the mounting bracket is mounted to the bicycle frame, and wherein the fixed portion is configured to be fixed to a chain stay of the bicycle frame.
In a seventh aspect, in the bicycle front derailleur according to any of the previous aspects, the mounting bracket further includes a main body, and the fixed portion includes a flange.
In an eighth aspect, in the bicycle front derailleur according to the seventh aspect, the flange protrudes from the main body away from the chain guide.
In a ninth aspect, in the bicycle front derailleur according to either of the seventh and eighth aspects, the flange is configured to be located closer to the bicycle frame than the chain guide in the state in which the fixed portion is fixed to the bicycle frame.
In a tenth aspect, in the bicycle front derailleur according to any of the previous aspects, the fixed portion is a first fixed portion, the flange is a first flange, the mounting bracket includes a second fixed portion, and the second fixed portion includes a second flange.
In an eleventh aspect, in the bicycle front derailleur according to the tenth aspect, the second flange protrudes in a forward direction from the main body.
In a twelfth aspect, in the bicycle front derailleur according to any of the previous aspects, the fixed portion is a first fixed portion, the mounting bracket includes a second fixed portion and a main body, the main body includes at least one connecting portion pivotally connected to the linkage assembly, and wherein the connecting portion is located between the first and second fixed portions as viewed in a direction parallel to a rotational center axis of the front sprocket in a state in which the fixed portions are fixed to the bicycle frame.
In a thirteenth aspect, in the bicycle front derailleur according to the twelfth aspect, the first and second fixed portions define first and second fastener axes, respectively, and a pivot axis defined by the connecting portion is non-parallel to either of the first and second fastener axes.
In a fourteenth aspect, in the bicycle front derailleur according to any of the previous aspects, further including an adjusting structure configured to adjust a position of the mounting bracket relative to the bicycle frame in a direction of a fastener axis defined by the fixed portion.
In a fifteenth aspect, in the bicycle front derailleur according to the fourteenth aspect, the adjusting structure includes at least one spacer selectively located between the fixed portion and the bicycle frame.
In a sixteenth aspect, the invention is a bicycle front derailleur including a mounting bracket configured to mount a bicycle front derailleur to a bicycle frame. The mounting bracket includes at least one connecting portion pivotally connected to the linkage assembly and a first fixed portion through which a first fastener passes. The first fixed portion defines a first fastener axis, which is non-parallel to a rotational center axis of a bicycle front sprocket in a state in which the mounting bracket is mounted to the bicycle frame. The mounting bracket further includes a second fixed portion through which a second fastener passes. The second fixed portion defines a second fastener axis, which is non-parallel to the rotational center axis in the state in which the mounting bracket is mounted to the bicycle frame. The connecting portion is located between the first and second fixed portions as viewed in a direction parallel to the rotational center axis.
In a seventeenth aspect, in the bicycle front derailleur according to the sixteenth aspect, the first fastener axis extends along a direction perpendicular to the rotational center axis.
In an eighteenth aspect, in the bicycle front derailleur according to any of the previous aspects, the second fastener axis extends along the direction perpendicular to the rotational center axis.
In a nineteenth aspect, in the bicycle front derailleur according to either of the seventeenth or eighteenth aspects, the mounting bracket further includes a main body and the first fixed portion includes a flange.
In a twentieth aspect, in the bicycle front derailleur according to the nineteenth aspect, the front derailleur includes a chain guide, and wherein the flange protrudes from the main body away from the chain guide.
In a twenty-first aspect, in the bicycle front derailleur according to either of the nineteenth or twentieth aspects, the flange is configured to be located closer to the bicycle frame than the chain guide in the state in which the mounting bracket is fixed to the bicycle frame.
In a twenty-second aspect, in the bicycle front derailleur according to any of the nineteenth through twenty-first aspects, the flange is a first flange, and the second fixed portion includes a second flange.
In a twenty-third aspect, in the bicycle front derailleur according to the twenty-second aspect, the second flange protrudes in a forward direction from the main body.
In a twenty-fourth aspect, in the bicycle front derailleur according to any of the sixteenth through twenty-third aspects, the first fastener axis and the second fastener axis are on opposite sides of a pivot joint between a first tubular part and a second tubular part of the bicycle frame in the state in which the mounting bracket is fixed to the bicycle frame.
In a twenty-fifth aspect, the bicycle front derailleur according to any of the sixteenth through twenty-fourth aspects further includes an adjusting structure configured to adjust a position of the mounting bracket relative to the bicycle frame in a direction of a fastener axis defined by the fixed portion.
In a twenty-sixth aspect, in the bicycle front derailleur according to the twenty-fifth aspect, the adjusting structure includes at least one spacer selectively located between the fixed portion and the bicycle frame.
In a twenty-seventh aspect, the invention is a bicycle front derailleur that includes a chain guide. The chain guide includes a first guide plate, second guide plate, a first bridge portion connecting the first and second guide plates at a first location, and a second bridge portion connecting the first and second guide plates at a second location that is different from the first location. The first bridge portion is positioned in a first plane, and the second bridge portion is positioned in a second plane. The bicycle front derailleur further includes a linkage assembly and a mounting bracket configured to mount the chain guide to a bicycle frame such that the chain guide is movable with respect to the mounting bracket. The mounting bracket includes at least one fixed portion defining a fastener axis that intersects with the first plane and the second plane.
In a twenty-eighth aspect, in the bicycle front derailleur according to the twenty-seventh aspect, the bicycle front derailleur further includes a cable attachment portion. The first bridge portion is closer to the cable attachment portion than the second bridge portion, and the fixed portion and the second bridge portion are located on the same side of the first plane.
In a twenty-ninth aspect, in the bicycle front derailleur according to either of the twenty-seventh or the twenty-eighth aspects, the fixed portion is positioned between the first plane and the second plane.
Other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description and the drawings.
Referring to
For reference purposes, the bicycle 10 is considered to be in an upright position in
Referring to
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With reference to
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Thus, as described above and as shown in
Thus, as described above, the bicycle front derailleur 58 includes the mounting bracket 138 configured to mount a bicycle front derailleur 58 to the bicycle frame 22. The mounting bracket 138 includes at least one connecting portion 214 pivotally connected to the linkage assembly 134 and the first fixed portion 142 through which the first fastener 150 passes. The first fixed portion 142 defines the first fastener axis 170, which is non-parallel to the rotational center axis 48 of the bicycle front sprocket 42, 46 in a state in which the mounting bracket 138 is mounted to the bicycle frame 22. The mounting bracket 138 further includes the second fixed portion 146 through which the second fastener 154 passes. The second fixed portion 146 defines the second fastener axis 174, which is non-parallel to the rotational center axis 48 in the state in which the mounting bracket 138 is mounted to the bicycle frame 22. The connecting portion 214 is located between the first and second fixed portions 142, 146 as viewed in a direction parallel to the rotational center axis 48. Further, in the illustrated embodiments, the first fastener axis 170 extends along a direction perpendicular to the rotational center axis 48. Herein, “extends along” is used to mean that the first fastener axis 170 extends in a direction that is within twenty degrees of being perpendicular to the rotational center axis 48.
Also, as best shown in
Referring to
The bicycle front derailleur 58 includes the cable attachment portion 74. The cable attachment portion 74 is essentially a clamp for clamping the operation cable 70 to the front derailleur 58. The first bridge portion 234 is closer to the cable attachment portion 74 than the second bridge portion 246, and the fixed portion 142 and the second bridge portion 246 are located on the same side of the first plane 254. As best viewed in
A second embodiment is described as follows with reference to
As shown in
The adjustment structure of
In the embodiment of
The fastener 294 is a first fastener 294, and a second fastener 302 is spaced apart from the first fastener 294 as in the first embodiment. The first and second fixed portions 310, 314 define the first fastener axis 298 and a second fastener axis 306, respectively. As in the first embodiment, in the derailleur 282 of the third embodiment, a linkage assembly pivot axis 338 defined by the connecting portion 334 is non-parallel to either of the first and second fastener axes 298, 306. More specifically, the linkage assembly pivot axis 338 is defined by a center axis of a through hole of the connecting portion 334 through which a pivot pin pivotally connects the connecting portion 334 and the linkage assembly 134. Thus, the linkage assembly pivot axis 338 can also be defined by the longitudinal center axis of the pivot pin.
According to the present invention, the mounting bracket is fixed to the bicycle frame by the fastener that extends toward the bottom bracket hanger of the bicycle frame. With this arrangement, there is no need for the mounting bracket to be located in the axial direction of the pivot joint of the frame member with respect to the pivot joint. Therefore, the pivot joint can be wider without interfering with the front sprocket or the bicycle crank assembly. In other words, the mounting bracket does not occupy space that is between the pivot joint and the front sprocket in the axial direction of the pivot joint, which permits the pivot joint to be wider and thus stronger.
While the invention has been described in detail with respect to specific embodiments, those skilled in the art, upon attaining an understanding of the specific embodiments, may readily conceive of alterations, variations, and equivalents to these embodiments. Accordingly, the scope of the invention should be assessed as that of the appended claims and their equivalents.
Inoue, Kenkichi, Obuchi, Kohei, Kuwayama, Kazuya, Emura, Atsuhiro, Mitsuyasu, Kento, Masuda, Mineho
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Mar 22 2016 | Shimano Inc. | (assignment on the face of the patent) | / | |||
Mar 22 2016 | EMURA, ATSUHIRO | Shimano Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038056 | /0279 | |
Mar 22 2016 | INOUE, KENKICHI | Shimano Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038056 | /0279 | |
Mar 22 2016 | KUWAYAMA, KAZUYA | Shimano Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038056 | /0279 | |
Mar 22 2016 | OBUCHI, KOHEI | Shimano Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038056 | /0279 | |
Mar 22 2016 | MASUDA, MINEHO | Shimano Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038056 | /0279 | |
Mar 22 2016 | MITSUYASU, KENTO | Shimano Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 038056 | /0279 |
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